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My Projects

In my journey as a mechanical engineer, I find immense joy in designing intricate creations and then subjecting them to real-world and computer simulations for analysis. Each project, whether small or large, has been a stepping stone in my growth and learning within this dynamic field.

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This page showcases some of my major projects, which have been integral to my academic and professional journey in the field of mechanical engineering. Each project has provided invaluable learning experiences, allowing me to expand my knowledge and skills significantly.

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I have evolved technical knowledge in these tools after grinding myself on projects - Fusion 360, Solidworks, Teamcenter, and ANSYS APDL.

 

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Assailing Falcons 01
 

Assailing Falcons is a aerodesign team from Vellore Institute of Technology which participates in SAE (Society of Automotive Engineers) Aerodesign East.

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"The competition task involved designing an aircraft capable of dropping a miniature plane attached to it, which carries table tennis balls equivalent to human beings. The small plane must be released from a height of at least 50 feet and must not have any propulsion system. Additionally, to support the "table tennis ball" humans, water bottles are also dropped from the main plane"

Piezoelectric Microactuator 02

As my capstone project, I undertook the design and optimization of a piezoelectric microactuator for Spovum Technologies, located in Bangalore, India. This microactuator serves as a replacement for an imported device utilized in the company's daily operations, particularly in the realm of in vitro fertilization (IVF).

Composite Manufacturing 03

Developed a diverse array of composite layups tailored for applications in Aeromodelling, Robotics, and Model Building, utilizing materials such as kevlar honeycomb, balsa wood, carbon fiber, and fiberglass.

Design Change Control 04

Throughout its lifespan, a product undergoes a series of design-related changes, each carefully scrutinized through a rigorous five-step process before being implemented into the live product.

Each modification is executed with meticulous attention to optimizing the design while taking into account essential medical regulations, including bio-compatibility and human factors. Each design iteration undergoes rigorous validation through a combination of laboratory testing and computer simulations.

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